1428d7b3dSmrg/* 2428d7b3dSmrg * Copyright © 2011,2012,2013 Intel Corporation 3428d7b3dSmrg * 4428d7b3dSmrg * Permission is hereby granted, free of charge, to any person obtaining a 5428d7b3dSmrg * copy of this software and associated documentation files (the "Software"), 6428d7b3dSmrg * to deal in the Software without restriction, including without limitation 7428d7b3dSmrg * the rights to use, copy, modify, merge, publish, distribute, sublicense, 8428d7b3dSmrg * and/or sell copies of the Software, and to permit persons to whom the 9428d7b3dSmrg * Software is furnished to do so, subject to the following conditions: 10428d7b3dSmrg * 11428d7b3dSmrg * The above copyright notice and this permission notice (including the next 12428d7b3dSmrg * paragraph) shall be included in all copies or substantial portions of the 13428d7b3dSmrg * Software. 14428d7b3dSmrg * 15428d7b3dSmrg * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 16428d7b3dSmrg * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 17428d7b3dSmrg * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 18428d7b3dSmrg * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 19428d7b3dSmrg * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 20428d7b3dSmrg * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE 21428d7b3dSmrg * SOFTWARE. 22428d7b3dSmrg * 23428d7b3dSmrg * Authors: 24428d7b3dSmrg * Chris Wilson <chris@chris-wilson.co.uk> 25428d7b3dSmrg * 26428d7b3dSmrg */ 27428d7b3dSmrg 28428d7b3dSmrg#ifdef HAVE_CONFIG_H 29428d7b3dSmrg#include "config.h" 30428d7b3dSmrg#endif 31428d7b3dSmrg 32428d7b3dSmrg#include "sna.h" 33428d7b3dSmrg#include "sna_render.h" 34428d7b3dSmrg#include "sna_render_inline.h" 35428d7b3dSmrg#include "gen4_source.h" 36428d7b3dSmrg#include "gen4_render.h" 37428d7b3dSmrg 38428d7b3dSmrgbool 39428d7b3dSmrggen4_channel_init_solid(struct sna *sna, 40428d7b3dSmrg struct sna_composite_channel *channel, 41428d7b3dSmrg uint32_t color) 42428d7b3dSmrg{ 43428d7b3dSmrg channel->filter = PictFilterNearest; 44428d7b3dSmrg channel->repeat = RepeatNormal; 45428d7b3dSmrg channel->is_affine = true; 46428d7b3dSmrg channel->is_solid = true; 47428d7b3dSmrg channel->is_opaque = (color >> 24) == 0xff; 48428d7b3dSmrg channel->transform = NULL; 49428d7b3dSmrg channel->width = 1; 50428d7b3dSmrg channel->height = 1; 51428d7b3dSmrg channel->pict_format = PICT_a8r8g8b8; 52428d7b3dSmrg channel->card_format = GEN4_SURFACEFORMAT_B8G8R8A8_UNORM; 53428d7b3dSmrg 54428d7b3dSmrg channel->bo = sna_render_get_solid(sna, color); 55428d7b3dSmrg 56428d7b3dSmrg channel->scale[0] = channel->scale[1] = 1; 57428d7b3dSmrg channel->offset[0] = channel->offset[1] = 0; 58428d7b3dSmrg return channel->bo != NULL; 59428d7b3dSmrg} 60428d7b3dSmrg 61428d7b3dSmrgbool 62428d7b3dSmrggen4_channel_init_linear(struct sna *sna, 63428d7b3dSmrg PicturePtr picture, 64428d7b3dSmrg struct sna_composite_channel *channel, 65428d7b3dSmrg int x, int y, 66428d7b3dSmrg int w, int h, 67428d7b3dSmrg int dst_x, int dst_y) 68428d7b3dSmrg{ 69428d7b3dSmrg PictLinearGradient *linear = 70428d7b3dSmrg (PictLinearGradient *)picture->pSourcePict; 71428d7b3dSmrg pixman_fixed_t tx, ty; 72428d7b3dSmrg float x0, y0, sf; 73428d7b3dSmrg float dx, dy; 74428d7b3dSmrg 75428d7b3dSmrg DBG(("%s: p1=(%f, %f), p2=(%f, %f), src=(%d, %d), dst=(%d, %d), size=(%d, %d)\n", 76428d7b3dSmrg __FUNCTION__, 77428d7b3dSmrg pixman_fixed_to_double(linear->p1.x), pixman_fixed_to_double(linear->p1.y), 78428d7b3dSmrg pixman_fixed_to_double(linear->p2.x), pixman_fixed_to_double(linear->p2.y), 79428d7b3dSmrg x, y, dst_x, dst_y, w, h)); 80428d7b3dSmrg 81428d7b3dSmrg if (linear->p2.x == linear->p1.x && linear->p2.y == linear->p1.y) 82428d7b3dSmrg return 0; 83428d7b3dSmrg 84428d7b3dSmrg if (!sna_transform_is_affine(picture->transform)) { 85428d7b3dSmrg DBG(("%s: fallback due to projective transform\n", 86428d7b3dSmrg __FUNCTION__)); 87428d7b3dSmrg return sna_render_picture_fixup(sna, picture, channel, 88428d7b3dSmrg x, y, w, h, dst_x, dst_y); 89428d7b3dSmrg } 90428d7b3dSmrg 91428d7b3dSmrg channel->bo = sna_render_get_gradient(sna, (PictGradient *)linear); 92428d7b3dSmrg if (!channel->bo) 93428d7b3dSmrg return 0; 94428d7b3dSmrg 95428d7b3dSmrg channel->filter = PictFilterNearest; 96428d7b3dSmrg channel->repeat = picture->repeat ? picture->repeatType : RepeatNone; 97428d7b3dSmrg channel->width = channel->bo->pitch / 4; 98428d7b3dSmrg channel->height = 1; 99428d7b3dSmrg channel->pict_format = PICT_a8r8g8b8; 100428d7b3dSmrg channel->card_format = GEN4_SURFACEFORMAT_B8G8R8A8_UNORM; 101428d7b3dSmrg channel->is_linear = 1; 102428d7b3dSmrg channel->is_affine = 1; 103428d7b3dSmrg 104428d7b3dSmrg channel->scale[0] = channel->scale[1] = 1; 105428d7b3dSmrg channel->offset[0] = channel->offset[1] = 0; 106428d7b3dSmrg 107428d7b3dSmrg if (sna_transform_is_translation(picture->transform, &tx, &ty)) { 108428d7b3dSmrg dx = pixman_fixed_to_double(linear->p2.x - linear->p1.x); 109428d7b3dSmrg dy = pixman_fixed_to_double(linear->p2.y - linear->p1.y); 110428d7b3dSmrg 111428d7b3dSmrg x0 = pixman_fixed_to_double(linear->p1.x); 112428d7b3dSmrg y0 = pixman_fixed_to_double(linear->p1.y); 113428d7b3dSmrg 114428d7b3dSmrg if (tx | ty) { 115428d7b3dSmrg x0 -= pixman_fixed_to_double(tx); 116428d7b3dSmrg y0 -= pixman_fixed_to_double(ty); 117428d7b3dSmrg } 118428d7b3dSmrg } else { 119428d7b3dSmrg struct pixman_f_vector p1, p2; 120428d7b3dSmrg struct pixman_f_transform m, inv; 121428d7b3dSmrg 122428d7b3dSmrg pixman_f_transform_from_pixman_transform(&m, picture->transform); 123428d7b3dSmrg DBG(("%s: transform = [%f %f %f, %f %f %f, %f %f %f]\n", 124428d7b3dSmrg __FUNCTION__, 125428d7b3dSmrg m.m[0][0], m.m[0][1], m.m[0][2], 126428d7b3dSmrg m.m[1][0], m.m[1][1], m.m[1][2], 127428d7b3dSmrg m.m[2][0], m.m[2][1], m.m[2][2])); 128428d7b3dSmrg if (!pixman_f_transform_invert(&inv, &m)) 129428d7b3dSmrg return 0; 130428d7b3dSmrg 131428d7b3dSmrg p1.v[0] = pixman_fixed_to_double(linear->p1.x); 132428d7b3dSmrg p1.v[1] = pixman_fixed_to_double(linear->p1.y); 133428d7b3dSmrg p1.v[2] = 1.; 134428d7b3dSmrg pixman_f_transform_point(&inv, &p1); 135428d7b3dSmrg 136428d7b3dSmrg p2.v[0] = pixman_fixed_to_double(linear->p2.x); 137428d7b3dSmrg p2.v[1] = pixman_fixed_to_double(linear->p2.y); 138428d7b3dSmrg p2.v[2] = 1.; 139428d7b3dSmrg pixman_f_transform_point(&inv, &p2); 140428d7b3dSmrg 141428d7b3dSmrg DBG(("%s: untransformed: p1=(%f, %f, %f), p2=(%f, %f, %f)\n", 142428d7b3dSmrg __FUNCTION__, 143428d7b3dSmrg p1.v[0], p1.v[1], p1.v[2], 144428d7b3dSmrg p2.v[0], p2.v[1], p2.v[2])); 145428d7b3dSmrg 146428d7b3dSmrg dx = p2.v[0] - p1.v[0]; 147428d7b3dSmrg dy = p2.v[1] - p1.v[1]; 148428d7b3dSmrg 149428d7b3dSmrg x0 = p1.v[0]; 150428d7b3dSmrg y0 = p1.v[1]; 151428d7b3dSmrg } 152428d7b3dSmrg 153428d7b3dSmrg sf = dx*dx + dy*dy; 154428d7b3dSmrg dx /= sf; 155428d7b3dSmrg dy /= sf; 156428d7b3dSmrg 157428d7b3dSmrg channel->u.linear.dx = dx; 158428d7b3dSmrg channel->u.linear.dy = dy; 159428d7b3dSmrg channel->u.linear.offset = -dx*(x0+dst_x-x) + -dy*(y0+dst_y-y); 160428d7b3dSmrg 161428d7b3dSmrg channel->embedded_transform.matrix[0][0] = pixman_double_to_fixed(dx); 162428d7b3dSmrg channel->embedded_transform.matrix[0][1] = pixman_double_to_fixed(dy); 163428d7b3dSmrg channel->embedded_transform.matrix[0][2] = pixman_double_to_fixed(channel->u.linear.offset); 164428d7b3dSmrg 165428d7b3dSmrg channel->embedded_transform.matrix[1][0] = 0; 166428d7b3dSmrg channel->embedded_transform.matrix[1][1] = 0; 167428d7b3dSmrg channel->embedded_transform.matrix[1][2] = pixman_double_to_fixed(.5); 168428d7b3dSmrg 169428d7b3dSmrg channel->embedded_transform.matrix[2][0] = 0; 170428d7b3dSmrg channel->embedded_transform.matrix[2][1] = 0; 171428d7b3dSmrg channel->embedded_transform.matrix[2][2] = pixman_fixed_1; 172428d7b3dSmrg 173428d7b3dSmrg channel->transform = &channel->embedded_transform; 174428d7b3dSmrg 175428d7b3dSmrg DBG(("%s: dx=%f, dy=%f, offset=%f\n", 176428d7b3dSmrg __FUNCTION__, dx, dy, channel->u.linear.offset)); 177428d7b3dSmrg 178428d7b3dSmrg return channel->bo != NULL; 179428d7b3dSmrg} 180